DE800697C - Winch - Google Patents

Description

Pulling winch The invention has a winch, in particular for moving N oii (ie \\ iilntingsmaschinen, such as coal planers, setting machines, etc., lengthways of the coal face in the face.

It is of particular advantage to be used for this purpose in place of the earlier mostly common drum winches with two oppositely rotating drums the principle of the capstan drum working winches are used, which have a parabolic design Have contact surface for the rope, which in a few turns around the driven Drum is led around and taken along by this with frictional engagement.

For the effect of such pulling winches, namely the maintenance of a constant frictional connection, it is necessary that the rope running off the parabolic disc is kept under constant tension, with a tension of the running rope run of about 25o kg, with a pulling force of the winch of about io t, is necessary to ensure that the 7u # z- Rope at three uniclosures on the parabolic to achieve disc. The tensioning of the expiring Rope runs have so far been done in the most primitive way Wise by human power or by ordinance an additional rope take-up reel onto which the oii the parahol disc running off Truni runs up. Such arrangements are comparative complicated and require constant maintenance. Nevertheless, they are satisfactory in their mode of action not that it is usually necessary to a significantly larger number of windings gen t1111 to run the parabolic disc as this when kept properly under tension running rope truin for taking the rope with you would be necessary. The invention relates to winches of this type and avoids the disadvantages described by sheep a simple, reliable and practical table automatically working clamping device. This clamping device consists of two friction rollers len. which, with a slightly larger circumference ;; speed revolving than the capstan drum, act on the running strand and keep it constantly under tension due to its greater peripheral speed preferably, automatically actuated pressure device in which the rollers can be pivoted to rest against the rope or to remove it from the rope.

such a clamping device is in a symmetrical arrangement on both sides of the two ropes arranged. Of these, the one for the running rope run assigned in effectiveness.

The force with which the friction rollers, which come out of a vain 1 "4, erstotf with a high coefficient of friction, preferably an aluminum alloy and the diameter of which depends on the speed of the parabolic disc, all the rope can be pressed, by appropriate adjustment of the the Rolls of the lever-actuating pressure device that presses the downward cable truncheon, preferably a Prehluitzylinders, once and for all after one to be determined 11 can be regulated so that the necessary rope tension is always achieved automatically will. Switching from one of the two clamping devices to the other if the direction of rotation of the 'l rominel is changed, it is practical to do so automatically.

In the pictures there is a basic form of training Winch with the Seilspannvorrictitung according to the invention shown for example, namely, Fig. 1 shows a rapid side view, partially in section, of the overall device according to line A-B of Fig. 2 in the pressed-on state of the friction rollers, Abt). 2 one Top view of the overall device and Fig. 3 a section along line C-D of Fig. 2 in the lifted state of the friction rollers. In the figures, a is the main drive pulley, its parabolically designed car bearing surface for the rope, its ablauttrum with b and whose accruing strand is denoted by c, as is the leadership of the Rope over the drum in several - according to the embodiment three turns, from Fig. 2 can be seen.

The outer rims of this drum are designed as ring gears d ', d " and act on fine gears via the intermediate gears e. Each of these gears in turn drives the upper of the friction rollers lt via an intermediate gear g and the lower friction roller i directly chosen so that, as noted above, the circumferential speed of the friction wheels la and i, which rotate in the same direction of rotation as the main drive drum u, is slightly greater than that of the main drum, so that the friction wheels acting on the running rope strand b with constant slight relative movement between To enlarge the looping loop and to guide the cable, a non-driven guide pulley k is arranged on the shaft k 'on which the toothed wheel f runs loosely. Swiveling around the axis k' as a fulcrum is the toggle lever 1, on one arm according to the embodiment u Immediately the lower ', friction roller is mounted, while the upper friction roller 1i is under the action of an intermediate lever which engages in a with rä in the vicinity of the fulcrum of the lever I. When the lever L is pivoted in one direction or the other, the lower roller i, which is rotatably mounted on it, and the upper roller li are pressed against the rope at the same time at mutually opposite points, fully below and above (abbot). i ') or lifted off (Fig. 3).

The ', #' erasing of the fog i takes place according to the exemplary embodiment by a compressed air cylinder o, in which a piston moves p to which the Lever l is hinged. A return spring q causes the cylinder to exhaust is, the return movement of the lever l from the position pressing the friction rollers (Abbot). i) in the lifting position (Fig. 3).

With r are guide rollers denoted, the running or running Drive Truni beyond the jig.

The mode of operation of the device is briefly as follows: According to Fig. I if the air pressure cylinder o is acted upon, the lever L has so with the through the Linposition of the application of the compressed air piston given force in the pressure position for lteibroiie - to the left in the illustration - against the action of the spring q pivots and thus presses the friction rollers onto the running rope run.

When the direction of movement of the main drive drum is reversed, the cylinder o is automatically vented, whereby the spring q swivels the lever l in the direction to the right and thus rubs the friction rollers off your rope.

At the same time (Fig. 3) the compressed air cylinder on the activated on the other side, thereby turning the friction roller to the other side System brought all the rope run that is no longer running, etc.

Of course, the compressed air piston can also be operated by hand or to be switched. According to a slightly different embodiment of the invention In suitable cases, the friction disks can also be used instead of the parabolic disk to be driven, receive a special drive.

The one described in detail above and shown in the figures Embodiment of the invention is of course only an example and can in can be modified in many ways without departing from the basic idea of the invention.

Furthermore, the application of the invention is not limited to winches for the method of mining machines in the Strebbati, but also with others according to the principle of the capstan drum - Parabolic disks - working pulling winches for the various purposes possible.

Claims (1)

PATENTANsi1iii @ C, iis: i. Winch, especially for moving of mining machines, such as coal planers. Schränimaschiiien 1i. d-1., along the coal push in the longwall with a Spilltroinniel parabolic: \ tiflagerfläclie for the rope dragged with frictional engagement, characterized by an automatic clamping device for (the running rope tram in form two (read Truin -press between himself- which and tn with a slightly higher circumferential speed than the spill line of driven friction roll. 2. Tensioning device for the running rope truni according to claim i, characterized in that that the friction rollers have a gear transmission be powered by clerSliilltrotninel itself. 3. Spaun device according to claim 2, there- by gel <entizc @ iclinet, (iaß the friction rollers are stored in a llcbel. d. Clamping device according to claims i to 3, by the fact that one of the frictional roll (i) directly on your arm of the als- Wirikelliebel el) il <leten four-pivot Fog (l) is stored while the second Friction roller (h) on a second, through the Pivoting of the lever created in turn pivoted angle lever (m) is mounted. j. Clamping device according to claim 1, characterized. that the free arm of the Verikelliebels (in) engages in a groove of the angle lever (l) near its pivot point. 6. Clamping device according to Artspruch r to 3. characterized in that the angle lever pressing or lifting the friction rollers under the action of a compressed air cylinder, a spring o the action of a counter spring in which the friction rollers remedying Sinue is pivoted. Spaini device according to claim i to 6, characterized in that the svininetrically arranged tensioning devices or their drives automatically when the direction of rotation of the main drive drum is reversed from the pressure to the B. embodiment of the tensioning device according to claim 1, characterized in that the friction rollers have a special drive. o. tensioning device according to claims 1 to 8, characterized in that the friction rollers are made of a material of high efficiency, preferably an aluminum alloy.